Quick-injection grease filling device

ABSTRACT

The present invention provides a quick-injection grease filling device, which features including an oil cup, a detachable guide seat, a screw, a piston, an oppression part and a rotating drive part. The piston is held inside the oil tank, capable of moving upward and downward. The piston has an oppression surface and a bearing placement surface. The detachable guide seat includes a combination part and a screw hole, and the combination part is attached to the cup mouth through a detachable assembly unit. The inner end of the screw extends into the oil cup, and the outward extending end extends out of the cup mouth. The rotation driving part is arranged on the outward extending end. The oppression part can move forward and backward along with the screw. The oppression part is used to press against the bearing.

BACKGROUND OF INVENTION 1. Field of the Invention

The present invention relates generally to a grease filling device, andmore particularly to an innovative structural design of aquick-injection grease filling device.

2. Description of Related Art

The grease filling device referring to by the present invention is alsocalled “grease filling can” in the industry. As the roller unit of thebearing structure is frequently subject to rolling friction and pressureduring usage, it is an important procedure to lubricate it properly. Atpresent, the bearing roller unit is usually lubricated using industrialgrease as the lubricant. Such industrial grease is like paste undernormal temperatures. Manually smearing it into the bearing roller unitis time consuming and costs a lot of labor, and the quality of fillingis hard to control. In view of this, some manufacturers have developed agrease filling device in the form of a can to lubricate the bearings.

In actual applications, the existing grease filling devices still havesome problems and shortcomings. For example, as most of the existinggrease filling devices fill the grease by driving a pressing block tomove forward and backward along a screw, so as to press the bearing andthe piston component. After grease-filling is completed and the bearingis lubricated, if the operator needs to fill grease into anotherbearing, the pressing block must be driven to move backward to withdrawfrom the screw, and the bearing is released to be taken out. As we cansee, the operator must take time to turn the pressing block for severalrounds to proceed to the next grease filling process. This willseriously affect the work efficiency and labor cost in the greasefilling operation. Therefore, it is an important topic that should bepaid attention to by the related manufacturers, and a solution is to bedeveloped.

SUMMARY OF THE INVENTION

The main object of the present invention is to provide a quick-injectiongrease filling device. It aims to make a breakthrough in solving thetechnical problems by developing an ideal, practical, and innovativegrease filling device. The quick-injection grease filling device isspecially designed to assist the user to fill grease into the rollerunit structure of the bearing. The bearing also includes inner framepart and outer frame part.

In view of the aforementioned object, the problem-solving technicalfeature of the present invention is that the quick-injection greasefilling device mainly includes: an oil cup, a detachable guide seat, ascrew, a piston, an oppression part and a rotating drive part; wherein,the oil cup has a cup bottom, a cup mouth, and a straight innerperipheral wall between the cup bottom and the cup mouth, the inside ofthe oil cup defines an oil tank to hold the grease;

the piston is housed inside the oil tank, the piston has an oppressionsurface, a bearing placement surface and a side ring surface connectedbetween the peripheries of the oppression surface and the bearingplacement surface, wherein the bearing placement surface faces the cupmouth, and the oppression surface faces the cup bottom and is used topress down the grease, the bearing placement surface is used forplacement of the bearing so that the outer frame of the bearing pressesthe bearing placement surface downward, so as to define and form anenclosed and sealed grease filling margin, the side ring surface istightly fitted against the straight inner peripheral wall, capable ofsliding, the center of the piston is formed with a plurality ofthrough-holes that go through the oppression surface and the bearingplacement surface;

the detachable guide seat includes a combination part and a screw hole,wherein the combination part is attached to the cup mouth of the oil cupthrough a detachable assembly unit, so that the screw hole of thedetachable guide seat can maintain a fixed distance between the cupmouth of the oil cup and the cup bottom;

the screw is screwed into the screw hole of the detachable guide seat tomove forward and backward, the screw includes an inner end and anoutward extending end, the rotating drive part is configured on theoutward extending end, the oppression part is configured on the innerend of the screw, so that the screw can move spirally forward andbackward, with the screw hole of the detachable guide seat as the fixedsupporting point, and the oppression part is used to press upon thebearing.

The main efficacy and advantage of the present invention is that, whenthe user wants to proceed to grease filling operation for the nextbearing, once the detachable guide seat is re-installed on the cupmouth, the grease filling can be started as long as the operator startsto turn the screw. Thus, the grease filling operation becomes moreefficient. Therefore, the present invention offers practical benefits.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded perspective view of a preferred embodiment of theinvention.

FIG. 2 is a combined perspective view of a preferred embodiment of theinvention.

FIG. 3 is a combined sectional view of a preferred embodiment of theinvention.

FIG. 4 is a sectional view showing the grease filling operation of apreferred embodiment of the invention.

FIG. 5 is a schematic view of a preferred embodiment of the inventionshowing the bearing can bearing can be quickly taken out after thegrease filling operation is completed.

FIG. 6 is a perspective view of a preferred embodiment of the inventionshowing the clamped state of the detachable assembly unit.

FIG. 7 is a perspective view of a preferred embodiment of the inventionshowing the released state of the detachable assembly unit.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 and FIG. 3 depict a preferred embodiment of the quick-injectiongrease filling device according to the present invention. However, suchan embodiment is for illustrative purpose only, and is not intending tolimit the scope of the invention.

The quick-injection grease filling device 100 is specially designed toassist a user to fill grease 05 into the roller unit 11 structure of abearing 10. The bearing 10 also includes an inner frame part 12 and anouter frame part 13. The quick-injection grease filling device 100includes an oil cup 20, a detachable guide seat 30, a screw 40, a piston50, an oppression part 60 and a rotating drive part 70. The oil cup 20has a closed cup bottom 21, and an open cup mouth 22 and a straightinner peripheral wall 23 between the cup bottom 21 and the cup mouth 22.The inside of the oil cup 20 defines an oil tank 24. The oil tank 24 isused to hold the grease 05. The piston 50 is held inside the oil tank 24in a form that it can be go upward and downward under a force. Thepiston 50 has an oppression surface 51 and a bearing placement surface52 facing opposite directions, and a side ring surface 53 connecting theperiphery of the oppression surface 51 and the bearing placement surface52. The bearing placement surface 52 faces upward toward the cup mouth22, the oppression surface 51 faces downward toward the cup bottom 21.The oppression surface 51 is used to press down the grease 05 held inthe oil tank 24. The bearing placement surface 52 is used for thebearing 10 to be placed on it. The outer frame part 13 of the bearing 10presses downward upon the bearing placement surface 52, so as to defineand form an enclosed and sealed grease filling margin 14. The side ringsurface 53 is configured with at least one sealing ring 54. The at leastone sealing ring 54 is fitted on the straight inner peripheral wall 23,and is capable of sliding. The center of the piston 50 is formed with aplurality of through-holes 55 that goes through the oppression surface51 and the bearing placement surface 52. The detachable guide seat 30includes a combination part 31 and a screw hole 32. The combination part31 is attached to the mouth 22 of the oil cup 20 through a detachableassembly unit 80, so that the detachable guide seat 30 can be attachedto or detached from the cup mouth 22. The screw 40 is screwed into thescrew hole 32 of the detachable guide seat 30 to move forward andbackward. The screw 40 includes an inner end 41 and an outward extendingend 42. The inner end 41 extends into the oil cup 20, the outwardextending end 42 extends out of the cup mouth 22 for a preset length,and the rotating drive part 70 is configured on the outward extendingend 42. The oppression part 60 is configured on the inner end 41 of thescrew 40, so that the oppression part 60 can move forward and backwardalong with the screw 40. The oppression part 60 is used to press uponthe bearing 10 (see FIG. 4 ).

Based on the structural composition and technical features describedabove, the quick-injection grease filling device 100 disclosed in thepresent invention is used like this: firstly, the user pours grease 05into the oil tank 24 of the oil cup 20, then place the piston 50 intothe oil tank 24 to seal the grease 05 from above, and then place thebearing 10 on the bearing placement surface 52 of the piston 50, so thatthe roller unit 11 of the bearing 10 is aligned to the plurality ofthrough-holes 55 formed in the center of the piston 50; then attach thedetachable guide seat 30 to the mouth 22 of the oil cup 20 using thedetachable assembly unit 80 of the combination part 31, so that theoppression part 60 on the inner end 41 of the screw 40 iscorrespondingly placed above the bearing 10 (see FIG. 3 ). Now, thegreasing filling operation can be started. As shown in FIG. 4 , the userrotates the rotating drive part 70 (in the direction indicated by ArrowL1), to drive the screw 40 to move downward (as indicated by Arrow L2),and cause the oppression part 60 to press the bearing 10 downward (asindicated by Arrow L3). Now, both the bearing 10 and the piston 50 arepressed to move downward, and under for squeezing force, the grease 05contained in the oil tank 24 will be squeezed out upward from theplurality of through-holes 55 formed on the piston 50 (as indicated byArrow L4), and be introduced into the corresponding roller unit 11 ofthe bearing 10. By now, the whole greasing filling operation iscompleted.

Referring to FIG. 5 , after completing the grease filling operation forthe bearing 10 as described in the previous paragraph, the user justneed to detach the detachable guide seat 30 from the mouth 22 of the oilcup 20 to take out the bearing 10 filled with grease. The advantageousfeature of the present invention is that, when the user wants to proceedto the grease filling operation for the next bearing 10, once thedetachable guide seat 30 is attached back to the mouth 22 of the oil cup20, the grease filling operation can be started by turning the screw 40(in this way, the grease filling operations can be conducted faster).Therefore, the present invention can perfectly overcome theaforementioned problem that the pressing block has to be rotated formultiple rounds to take out the bearing, which takes more labor andtime.

Referring to FIG. 1 and FIG. 3 , in the embodiment, the combination part31 is in the form of a ring frame bending downward and is formed on theperiphery of the detachable guide seat 30. The detachable assembly unit80 includes a plurality of convex blocks 81 formed at the position nearthe cup mouth 22 on the straight inner peripheral wall 23 in a circulararrangement with a spacing between each other, and a plurality ofL-shaped slots 82 formed on the combination part 31 in a circulararrangement with a spacing between each other. Each L-shaped slot 82includes a vertical introduction section 821 and a transverse clampingsection 822. Through the design of the detachable assembly unit 80disclosed in this embodiment, the detachable guide seat 30 can beattached and detached quickly by a minimal angle of rotation, so thatthe work efficiency can be enhanced. By comparing the difference betweenFIG. 6 and FIG. 7 , it can be seen that the detachable guide seat 30 canbe released to be detached by a rotation of 3 to 5 degrees (as indicatedby Arrow L5).

Specifically, the oppression part can be integrally formed on the innerend of the screw (note: omitted in the figure of the embodiment).

Referring to FIG. 1 and FIG. 3 , in this embodiment, the oppression part60 is formed on a pressing block 61, and the pressing block 61 is fittedon the inner end 41 of the screw 40 in a form that enables rotation.Specifically, the pressing block 61 includes an upper end driven part 62and a lower end part 63. The oppression part 60 is formed on the lowerend part 63. The upper end driven part 62 is connected on the inner end41 of the screw 40. The upper end driven part 62 is designed as aconcave trough and a ring slot 64 is formed on the wall of the concavetrough for the outer side of a buckle 65 to be embedded in it.Furthermore, the inner end 41 of the screw 40 is correspondingly formedwith a positioning ring groove 415 for the inner side of the buckle 65to be embedded in it. Thus, the screw 40 and the oppression part 60 areconnected to each other while being able to rotate.

Referring to FIG. 3 , in this embodiment, a further elastic supportcomponent 90 is provided between the oppression surface 51 of the piston50 and the bottom 21 of the oil cup 20. The efficacy of this embodimentis as follows: when the piston 50 is pushed to the lowest position, dueto the viscosity of the grease 05 and vacuum absorption, it may becomedifficult to take it out. In such a situation, the elastic supportcomponent 90 can push the piston 50 upward so that it can be releasedfrom the adhesion and vacuum absorption described above, and the piston50 can be taken out easily.

Specifically, the rotating drive part 70 and the outward extending end42 of the screw 40 are integrally formed or combined together. Therotating drive part 70 disclosed in FIG. 1 to FIG. 3 is combined withthe outward extending end 42 of the screw 40 in the form of a lever. Inaddition, the rotating drive part 70 can also be integrally formed onthe outward extending end 42 of the screw 40 in a polygonal design (notshown in the figure). Both embodiments of the rotating drive part 70 canfacilitate rotation by the user.

1. A quick-injection grease filling device, said quick-injection greasefilling device being specially designed to assist a user to fill greaseinto the roller unit structure of the bearing, the bearing includes aninner frame part and an outer frame part; the quick-injection greasefilling device includes an oil cup, a detachable guide seat, a screw, apiston, an oppression part and a rotating drive part; wherein, the oilcup has a cup bottom, a cup mouth, and a straight inner peripheral wallbetween the cup bottom and the cup mouth, the inside of the oil cupdefines an oil tank to hold the grease; the piston is housed inside theoil tank, the piston has an oppression surface, a bearing placementsurface and a side ring surface connected between the peripheries of theoppression surface and the bearing placement surface, wherein thebearing placement surface faces the cup mouth, and the oppressionsurface faces the cup bottom and is used to press down the grease, thebearing placement surface is used for placement of the bearing so thatthe outer frame of the bearing presses the bearing placement surfacedownward, so as to define and form an enclosed and sealed grease fillingmargin, the side ring surface is tightly fitted against the straightinner peripheral wall, capable of sliding, the center of the piston isformed with a plurality of through-holes that go through the oppressionsurface and the bearing placement surface; the detachable guide seatincludes a combination part and a screw hole, wherein the combinationpart is attached to the cup mouth of the oil cup through a detachableassembly unit, so that the screw hole of the detachable guide seat canmaintain a fixed distance between the cup mouth of the oil cup and thecup bottom; the screw is screwed into the screw hole of the detachableguide seat to move forward and backward, the screw includes an inner endand an outward extending end, the rotating drive part is configured onthe outward extending end, the oppression part is configured on theinner end of the screw, so that the screw can move spirally forward andbackward, with the screw hole of the detachable guide seat as the fixedsupporting point, and the oppression part is used to press upon thebearing.
 2. The quick-injection grease filling device, defined in claim1, wherein said combination part is in the form of a ring frame bendingdownward and is formed on the periphery of the detachable guide seat,the detachable assembly unit includes a plurality of convex blocksformed at the position near the cup mouth on the straight innerperipheral wall in a circular arrangement with a spacing between eachother, and a plurality of L-shaped slots formed on the combination partin a circular arrangement with a spacing between each other, eachL-shaped slot includes a vertical introduction section and a transverseclamping section.
 3. The quick-injection grease filling device, definedin claim 1, wherein said oppression part is integrally formed on theinner end of the screw.
 4. The quick-injection grease filling device,defined in claim 1, wherein said oppression part is formed on a pressingblock.
 5. The quick-injection grease filling device, defined in claim 4,wherein said pressing block is connected to the inner end of the screwin a form that enables rotation, the pressing block includes an upperend driven part and a lower end part, the oppression part is formed onthe lower end part, the upper end driven part is connected on the innerend of the screw, the upper end driven part is designed as a concavetrough and a ring slot is formed on the wall of the trough for the outerside of a buckle to be embedded in it, the inner end of the screw iscorrespondingly formed with a positioning ring groove for the inner sideof the buckle to be embedded in it, thus, the screw and the oppressionpart are connected to each other while being able to rotate.
 6. Thequick-injection grease filling device, defined in claim 1, wherein afurther elastic support component is configured between the oppressionsurface of the piston and the bottom of the oil cup.
 7. Thequick-injection grease filling device, defined in claim 1, wherein saidrotating drive part and the outward extending end of the screw areintegrally formed or combined.
 8. The quick-injection grease fillingdevice, defined in claim 1, wherein the side ring surface is configuredwith at least one sealing ring, so that it can form a sealingrelationship with the straight inner peripheral wall.